civil electives

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ANNA UNIVERSITY :: CHENNAI 600 025 CURRICULUM 2004 LIST OF ELECTIVES FOR B. E. CIVIL ENGINEERING SEMESTER VI Code No. Course Title L T P M MA1253 Probability and Statistics 3 0 0 10 0 EC1024 Object Oriented Programming 3 0 0 10 0 GE1001 Intellectual Property Rights (IPR) 3 0 0 10 0 GE1002 Indian Constitution and Society 3 0 0 10 0 CE1001 Hydrology 3 0 0 10 0 CE1002 Cartography 3 0 0 10 0 CE1003 Electronic Surveying 3 0 0 10 0 CE1004 Remote Sensing Techniques and Applications 3 0 0 10 0 SEMESTER VII Code No. Course Title L T P M CE1005 Geographical Information System 3 0 0 10 0 GE1003 Contract Laws and Regulations 3 0 0 10 0 CE1006 Traffic Engineering Management 3 0 0 10 0 CE1007 Housing Planning & Management 3 0 0 10 0

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Page 1: Civil Electives

ANNA UNIVERSITY :: CHENNAI 600 025

CURRICULUM 2004

LIST OF ELECTIVES FOR B. E. CIVIL ENGINEERING

SEMESTER VI

Code No. Course Title L T P M

MA1253 Probability and Statistics 3 0 0 100EC1024 Object Oriented Programming 3 0 0 100GE1001 Intellectual Property Rights (IPR) 3 0 0 100GE1002 Indian Constitution and Society 3 0 0 100CE1001 Hydrology 3 0 0 100CE1002 Cartography 3 0 0 100CE1003 Electronic Surveying 3 0 0 100CE1004 Remote Sensing Techniques and Applications 3 0 0 100

SEMESTER VII

Code No. Course Title L T P M

CE1005 Geographical Information System 3 0 0 100GE1003 Contract Laws and Regulations 3 0 0 100CE1006 Traffic Engineering Management 3 0 0 100CE1007 Housing Planning & Management 3 0 0 100CE1008 Habitat Systems and Design 3 0 0 100CE1009 Ground Water Engineering 3 0 0 100CE1010 Management of Irrigation Systems 3 0 0 100CE1011 Coastal Zone Management 3 0 0 100CE1012 Water Resources Engineering 3 0 0 100CE1013 Pavement Engineering 3 0 0 100CE1014 Ground Improvement Techniques 3 0 0 100CE1015 Introduction to Soil Dynamics and Machine

Foundations3 0 0 100

CE1016 Rock Engineering 3 0 0 100CE1017 Environmental Impact Assessment of Civil

Engineering Projects3 0 0 100

CE1018 Industrial Waste Management 3 0 0 100CE1019 Air Pollution Management 3 0 0 100CE1020 Municipal Solid Waste and Management 3 0 0 100CE1021 Ecological Engineering 3 0 0 100

Page 2: Civil Electives

SEMESTER VIII

Code No. Course Title L T P M

CE1022 Bridge Structures 3 0 0 100CE1023 Storage Structures 3 0 0 100CE1024 Design of Plate and Shell Structures 3 0 0 100CE1025 Tall Structures 3 0 0 100CE1026 Structural Dynamics 3 0 0 100CE1027 Prefabricated structures 3 0 0 100CE1028 Wind Engineering 3 0 0 100CE1029 Computer Aided Design of Structure 3 0 0 100CE1030 Pre-stressed Concrete Structures 3 0 0 100CE1031 Industrial Structures 3 0 0 100CE1032 Smart Structures and smart Materials 3 0 0 100CE1033 Finite Element Technique 3 0 0 100CE1034 Earthquake Engineering 3 0 0 100CE1035 Repair and Rehabilitation of Structures 3 0 0 100

Electives listed under higher semesters cannot be opted in a lower semester. However, electives listed in the lower semesters can be opted for in the higher semesters.

Page 3: Civil Electives

CE1001 HYDROLOGY 3 0 0 100

OBJECTIVE

At the end of the semester, the student shall be having a good understanding of all the components of the hydrological cycle. The mechanics of rainfall, its spatial and temporal measurement and their applications will be understood. Simple statistical analysis and application of probability distribution of rainfall and run off shall also be understood. Student will also learn simple methods of flood routing and ground water hydrology.

1. PRECIPITATION 10

Hydrologic cycle – Types of precipitation – Forms of precipitation – Measurement of Rainfall – Spatial measurement methods – Temporal measurement methods – Frequency analysis of point rainfall – Intensity, duration, frequency relationship – Probable maximum precipitation.

2. ABSTRACTION FROM PRECIPITATION 10

Losses from precipitation – Evaporation process – Reservoir evaporation – Infiltration process – Infiltration capacity – Measurement of infiltration – Infiltration indices – Effective rainfall.

3. HYDROGRAPHS 10

Factors affecting Hydrograph – Baseflow separation – Unit hydrograph – Derivation of unit hydrograph – S curve hydrograph – Unit hydrograph of different deviations - Synthetic Unit Hydrograph

4. FLOODS AND FLOOD ROUTING 9

Flood frequency studies – Recurrence interval – Gumbel’s method – Flood routing – Reservoir flood routing – Muskingum’s Channel Routing – Flood control

5. GROUND WATER HYDROLOGY 6

Types of aquifers – Darcy’s law – Dupuit’s assumptions – Confined Aquifer – Unconfined Aquifer – Recuperation test – Transmissibility – Specific capacity – Pumping test – Steady flow analysis only.

TOTAL : 45TEXT BOOKS

1. Subramanya, K., “Engineering Hydrology”, Tata McGraw-Hill Publishing Co., Ltd., 20002. Raghunath, H.M., “Hydrology”, Wiley Eastern Ltd., 2000

REFERENCES

1. Chow, V.T. and Maidment, “Hydrology for Engineers”, McGraw-Hill Inc., Ltd., 20002. Singh, V.P., “Hydrology”, McGraw-Hill Inc., Ltd., 2000

Page 4: Civil Electives

CE1002 CARTOGRAPHY 3 0 0 100

OBJECTIVE

At the end of the course the student will posses knowledge about Cartographic Concepts.

1. INTRODUCTION 9

Cartography today - Nature of Cartography - History of Cartography - Graticules - Cartometry.

2. EARTH 9

Earth-Map Relations - Basic Geodesy - Map Projections, Scale, Reference and Coordinate system - Transformation - Basic Transformation - Affin Transformation.3. SOURCES OF DATA 9

Sources of data - Ground Survey and Positioning - Remote Sensing data collection - Census and sampling - data - Models for digital cartographic information, Map digitizing.

4. PERCEPTION AND DESIGN 9

Cartographic design - Color theory and models - Color and pattern creation and specification - Color and pattern - Typography and lettering the map - Map compilation.

5. CARTOGRAPHY ABSTRACTION 9

Selection and Generalisation Principles - Symbolisation - Topographic and thematic maps - Map production and Reproduction - Map series.

TOTAL : 45TEXT BOOKS

1. R.W. ANSON and F.J. ORMELING, Basic Cartography for students and Technicians. Vol. I, II and III, Elsevrir Applied Science Publishers 2nd Edition, 1994.

2. ARTHUR, H. ROBINSON Et al Elements of Cartography, Sixth Edition, John Wiley and Sons, 1995.

3. John Campbell, Introductory Cartography Second Edition, 1994. Wm.C. Brown Publishers.4. M.J.Kraak and F.J. Ormeling, Cartography: Visualisation and spatial data. Prentice Hall – 1996.

Page 5: Civil Electives

CE1003 ELECTRONIC SURVEYING 3 0 0 100

OBJECTIVE

At the end of the course the student will posses knowledge about Electronic surveying

1. BASICS 15

Methods of measuring distance, historical development, basic principles, classifications, applications and comparison with conventional surveying. Fundamentals of electronics, resonant circuits, semiconductors, Lasers, Cathode ray tube, photo multiplier tube, transducers, oscillators, frequency mixing, modulation and demodulation, Kerrcell modulator, measurement of phase difference, reflectors and power sources.

2. PROPAGATION OF ELECTROMAGNETIC WAVES 15

Definition, classification, applications, propagation properties, wave propagation at lower and higher frequencies. Refractive index, factors affecting, computation of group refractive index for light and near infrared waves at standard conditions and ambient conditions, reference refractive index, first velocity correction, computation of refractive index for microwaves, measurement of atmospheric parameters, mean refractive index, real time application of first velocity correction, second velocity correction and total atmospheric correction.

3. ELECTROMAGNETIC DISTANCE MEASURING SYSTEM 15

Electro-optical system, measuring principle, working principle, sources of error, infrared EDM instruments, Laser EDM instruments and total station. Microwave system, measuring principle, working principle, sources of error, microwave EDM instruments, comparison with Electro-optical system, care and maintenance of EDM instruments, Modern Positioning Systems, EDM traversing, trilateration and base line measurement using EDM.

TOTAL : 45REFERENCES

1. Burnside, C.D. Electromagnetic distance measurement Crosby Lock wood staples, U.K. 1971.2. Rueger, J.M. Electronic Distance Measurement, Springer-Verlag, Berlin, 1990.3. Laurila, S.H. Electronic Surveying in Practice, John Wiley and Sons Inc, 1983.4. Soastamoinen, J.J. Surveyor’s guide to electro-magnetic Distance Measurement, Adam Hilger

Ltd., 1967.

Page 6: Civil Electives

CE1004 REMOTE SENSING TECHNIQUES AND APPLICATIONS 3 0 0 100

OBJECTIVE

At the end of the course the student will posses knowledge of Remote Sensing Techniques and its application in natural resource management.

1. INTRODUCTION 9

Definition – Physics of remote sensing – electromagnetic radiation (EMR) – remote sensing windows – interaction of EMR with atmosphere, earth surface, soils, water and vegetation – platform and sensors – image interpretations.

2. LAND USE STUDIES 9

Definition of land use – land use / land cover classification – schemes and levels of classification systems with RS data – land use mapping – change detection – urban land use planning, site suitability analysis, transportation planning.

3. WATER RESOURCES 9

Areal assessment of surface water bodies – Capacity survey of water bodies – mapping of snow-covered areas – flood risk zone mapping – identification of groundwater potential zones, recharge areas – droughts, definition, drought assessment and management.

4. AGRICULTURE, SOIL AND FORESTRY 9

Crop inventory mapping – production estimation – command area monitoring – soil mapping – crop stress detection - estimation of soil erosion – forest types and density mapping – forest fire risk zone mapping.

5. EARTH SCIENCE 9

Lithology – lithological mapping – structural mapping – Geomorphology – nature and type of landforms – identification – use of remote sensing data for land slides – targeting mineral resources – Engineering geology and Environmental geology.

TOTAL : 45REFERENCES

1. Lillesand, T.M and Kicter R.W. Remote Sensing and Image interpretation. John Willey and sons, inc. New York, 2002.

2. Michael Hord, R. Remote sensing methods and application, John Wiley and Sons, New York, 1986.

3. Steven, M.D, and Cllark, J.A. Application of Remote sensing in Agriculture, Butterworths, London, 1990.

4. Space Applications Centre. Manual for Forest mapping and Damage detection using satellite data, Report No.IRS-UP/SAC/FMDD/TN/16/90,1990, pp-253.

5. Sabins, F.F.Jr. Remote sensing principles and interpretation, W.H.Freeman & Co., 1978.6. Manual of Remote Sensing Vol. II. American Society of Photogrammetry

Page 7: Civil Electives

CE1005 GEOGRAPHICAL INFORMATION SYSTEM 3 0 0 100

OBJECTIVE

At the end of the course the student will posses knowledge about GIS Techniques and its application in the field of Civil Engineering

1. GIS TECHNIQUE AND DATA INPUT 13

MAP – Types of Maps – Development of GIS – Components of GIS – Hardware, software, organisation – Types of data – Spatial and non-spatial data – Print, Line and Polygon – Vector and Raster data – Database structures – Files – Vector and Raster data structures

2. DATA ANALYSIS AND MODELLING 10

Data Retrieval – Query – Simple Analysis – Spatial Analysis – Overlay – Vector Data Analysis – Raster Data Analysis – Modelling using GIS – Digital Elevation Model – Cost and path analysis – Expert Systems – Artificial Intelligence – Integration with GIS

3. DATA OUTPUT AND ERROR ANALYSIS 6

Data Output – Types – Devices used – Raster and Vector Display Devices – Printers – Plotters – Photowrite Devices – Sources of Errors – Types of Errors – Elimination – Accuracies

4. GIS APPLICATIONS IN RESOURCE MANAGEMENT 8

Fields of Applications – Natural Resources – Agriculture – Soil – Water Resources – Wasteland Management - Social Resources - Cadastral Records – LIS

5. ADVANCED GIS APPLICATION 8

AM/FM – Utility Network Management – Integration with Remote Sensing – Knowledge based techniques – Multicriteria Techniques – Introduction to Object Oriented Data base Models.

TOTAL:45TEXT BOOKS

1. Burrough P A, Principles of GIS for Land Resources Assessment, Oxford Publication, 20002. Michael N Demers, Fundamentals of Geographical Information Systems, Second Edition, John Wiley

Publications, 2002

REFERENCES

1. Paul A Longley, Michael F Goodchild etal, Geographical Information Systems Volume I and II, Second Edition, John Wiley Publications, 1999.

Page 8: Civil Electives

CE1006 TRAFFIC ENGINEERING AND MANAGEMENT 3 0 0 100

OBJECTIVE

The students acquire comprehensive knowledge of traffic surveys and studies such as ‘Volume Count’, ‘Speed and delay’, ‘Origin and destination’, ‘Parking’, ‘Pedestrian’ and ‘Accident surveys’. They achieve knowledge on design of ‘at grade’ and ‘grade separated’ intersections. They also become familiar with various traffic control and traffic management measures.

1. INTRODUCTION 9

Significance and scope, Characteristics of Vehicles and Road Users, Skid Resistance and Braking Efficiency (Problems), Components of Traffic Engineering- Road, Traffic and Land Use Characteristics

2. TRAFFIC SURVEYS AND ANALYSIS 9

Surveys and Analysis - Volume, Capacity, Speed and Delays, Origin and Destination, Parking, Pedestrian Studies, Accident Studies and Safety Level of Services- Problems

3. TRAFFIC CONTROL 9

Traffic signs, Road markings, Design of Traffic signals and Signal co-ordination (Problems), Traffic control aids and Street furniture, Street Lighting, Computer applications in Signal design

4. GEOMETRIC DESIGN OF INTERSECTIONS 9

Conflicts at Intersections, Classification of Intersections at Grade, - Chanallised and Unchanallised Intersection - Grade Separators (Concepts only), Principles of Intersection Design, Elements of Intersection Design, Chanallisation and Rotary design (Problems), Grade Separators 5. TRAFFIC MANAGEMENT 9

Traffic Management- Traffic System Management (TSM) and Travel Demand Management (TDM), Traffic Forecasting techniques, Restrictions on turning movements, One-way Streets, Traffic Segregation, Traffic Calming, Tidal flow operations, Exclusive Bus Lanes - Introduction to Intelligence Transport System (ITS)

TOTAL : 45TEXT BOOKS

1. Khanna K and Justo C E G, Highway Engineering, Khanna Publishers, Roorkee, 2001.2. Kadiyali L R, Traffic Engineering and Transport Planning, Khanna Technical Publications, Delhi,

2000.

REFERENCES

1. Indian Roads Congress (IRC) specifications: Guidelines and special publications on Traffic Planning and Management

2. Guidelines of Ministry of Road Transport and Highways, Government of India.3. Subhash C.Saxena, A Course in Traffic Planning and Design, Dhanpat Rai Publications, New

Delhi, 1989.

Page 9: Civil Electives

CE1007 HOUSING PLANNING AND MANAGEMENT 3 0 0 100

OBJECTIVE

The objective of the course is to train the students to have a comprehensive knowledge of planning, design, evaluation, construction and financing of housing projects. The course focuses on cost effective construction materials and methods. Emphasis has also been given on the principles of sustainable housing policies and programmes.

1. INTRODUCTION TO HOUSING 9

Definition of Basic Terms – House, Home, Household, Apartments, Multi storeyed Buildings, Special Buildings, Objectives and Strategies of National Housing Policies, Principle of Sustainable Housing, Housing Laws at State level, Bye-laws at Urban and Rural Local Bodies – levels - Development Control Regulations, Institutions for Housing at National, State and Local levels

2. HOUSING PROGRAMMES 9

Basic Concepts, Contents and Standards for Housing Programmes - Sites and Services, Neighbourhoods, Open Development Plots, Apartments, Rental Housing, Co-operative Housing, Slum Housing Programmes, Role of Public, Private and Non-Government Organisations.

3. PLANNING AND DESIGN OF HOUSING PROJECTS 9

Formulation of Housing Projects – Site Analysis, Layout Design, Design of Housing Units (Design Problems)

4. CONSTRUCTION TECHNIQUES AND COST-EFFECTIVE MATERIALS 9

New Constructions Techniques – Cost Effective Modern Construction Materials, Building Centers – Concept, Functions and Performance Evaluation

5. HOUSING FINANCE AND PROJECT APPRAISAL 9

Appraisal of Housing Projects – Housing Finance, Cost Recovery – Cash Flow Analysis, Subsidy and Cross Subsidy, Pricing o f Housing Units, Rents, Recovery Pattern (Problems).

TOTAL : 45TEXT BOOKS

1. Meera Mehta and Dinesh Mehta, Metropolitan Housing Markets, Sage Publications Pvt. Ltd., New Delhi, 1999.

2. Francis Cherunilam and Odeyar D Heggade, Housing in India, Himalaya Publishing House, Bombay, 1997.

REFERENCES

1. Development Control Rules for Chennai Metropolitan Area, CMA, Chennai, 2002.2. UNCHS, National Experiences with Shelter Delivery for the Poorest Groups, UNCHS (Habitat),

Nairobi, 1994.3. National Housing Policy, 1994, Government of India.

Page 10: Civil Electives

CE1009 GROUND WATER ENGINEERING 3 0 0 100

OBJECTIVES

To understand the distribution of ground water, evaluation of aquifer parameters, solving ground water equations. Ground water quality and development of ground water methods are dealt.

1. FUNDAMENTALS OF GROUND WATER 9

Introduction – Characteristic of Ground water – Distribution of water - ground water column –Permeability - Darcy's Law - Laboratory permeability test - Types of aquifers - Hydrogeological Cycle – water level fluctuations.

2. HYDRAULICS OF FLOW 9

Storage coefficient - Specific field - Heterogeneity and Anisotrophy -Transmissivity - Governing equations of ground water flow - Steady state flow - Dupuit Forchheimer assumptions - Velocity potential - Flow nets

3. ESTIMATION OF PARAMETERS 9

Transmissivity and Storativity – Pumping test - Unsteady state flow - Thiess method - Jacob method - Image well theory – Effect of partial penetrations of wells - Collectors wells.

4. GROUND WATER DEVELOPMENT 9

Infiltration gallery - Conjunctive use - Artificial recharge -Safe yield -Yield test – Geophysical methods – Selection of pumps.

5. WATER QUALITY 9

Ground water chemistry - Origin, movement and quality - Water quality standards - Saltwater intrusion –Environmental concern.

TOTAL : 45

TEXT BOOKS

1. Raghunath H.M., “Ground Water Hydrology”, Wiley Eastern Ltd., 2000.2. Todd D.K., “Ground Water Hydrology”, John Wiley and Sons, 2000.

REFERENCES

1. C Walton, “Ground Water Resource Evaluation”, McGraw-Hill Publications

Page 11: Civil Electives

CE1010 MANAGEMENT OF IRRIGATION SYSTEMS 3 0 0 100

OBJECTIVE

At the end of the semester, the student shall have a clear concept of irrigation water management practices -`of the past, present and future. He/she shall also be able to appreciate the importance due and duly given to stake holders.

1. IRRIGATION SYSTEM REQUIREMENTS 9

Irrigation systems – Supply and demand of water – Cropping pattern – Crop rotation – Crop diversification – Estimation of total and peak crop water requirements – Effective and dependable rainfall – Irrigation efficiencies.

2. IRRIGATION SCHEDULING 8

Time of irrigation – Critical stages of water need of crops – Criteria for scheduling irrigation – Frequency and interval of irrigation

3. MANAGEMENT 9

Structural and non-structural strategies in water use and management – Conjunctive use of surface and ground waters – Quality of irrigation water.

4. OPERATION 9

Operational plans – Main canals, laterals and field channels – Water control and regulating structures – Performance indicators – Case study

5. INVOLVEMENT OF STAKE HOLDERS 10

Farmer’s participation in System operation – Water user’s associations – Farmer councils – Changing paradigms on irrigation management – Participatory irrigation management

TOTAL : 45TEXT BOOKS

1. Dilip Kumar Majumdar, “Irrigation Water Management – Principles and Practice”, Prentice Hall of India Pvt. Ltd., New Delhi, 2000

2. Hand book on Irrigation Water Requirement, R.T. Gandhi, et. al., Water Management Division, Department of Agriculture, Ministry of Agriculture, New Delhi

REFERENCES

1. Hand Book on Irrigation System Operation Practices, Water Resources Management and Training Project, Technical report No. 33, CWC, New Delhi, 1990

2. Maloney, C. and Raju, K.V., “Managing Irrigation Together”, Practice and Policy in India, Stage Publication, New Delhi, India, 1994

Page 12: Civil Electives

CE1011 COASTAL ZONE MANAGEMENT 3 0 0 100

OBJECTIVE

At the end of the semester, the student shall be able to understand the coastal processes, coastal dynamics, impacts of structures like docks, harbours and quays leading to simple management perspectives along the coastal zone.

1. COASTAL ZONE 9

Coastal zone – Coastal zone regulations – Beach profile – Surf zone – Off shore – Coastal waters – Estuaries – Wet lands and Lagoons – Living resources – Non living resources.

2. WAVE DYNAMICS 10

Wave classification – Airy’s Linear Wave theory – Deep water waves – Shallow water waves – Wave pressure – Wave energy – Wave Decay – Reflection, Refraction and Diffraction of waves – Breaking of waves – Wave force on structures – Vertical – Sloping and stepped barriers – Force on piles.

3. WAVE FORECASTING AND TIDES 9

Need for forecasting - SMB and PNJ methods of wave forecasting – Classification of tides – Darwin’s equilibrium theory of tides – Effects on structures – seiches, Surges and Tsunamis

4. COASTAL PROCESSES 8

Erosion and depositional shore features – Methods of protection – Littoral currents – Coastal aquifers – Sea water intrusion – Impact of sewage disposal in seas.

5. HARBOURS 9

Types of classification of harbours – Requirements of a modern port – Selection of site – Types and selection of break waters – Need and mode of dredging – Selection of dredgers.

TOTAL : 45TEXT BOOKS

1. Richard Sylvester, “Coastal Engineering, Volume I and II”, Elseiner Scientific Publishing Co., 1999

2. Quinn, A.D., “Design & Construction of Ports and Marine Structures”, McGraw-Hill Book Co., 1999

REFERENCES

1. Ed. A.T. Ippen, “Coastline Hydrodynamics”, McGraw-Hill Inc., New York, 19932. Dwivedi, S.N., Natarajan, R and Ramachandran, S., “Coastal Zone Management in Tamilnadu”

Page 13: Civil Electives

CE1012 WATER RESOURCES ENGINEERING 3 0 0 100

OBJECTIVE

The student is exposed to the different phases in Water Resources viz planning, collection of relevant data on water resources and also on National Water Policy. Reservoir planning, management and economic analysis aspects are covered in detail.

1. GENERAL 9

Water resources survey – Water resources of India and Tamilnadu – Description of water resources planning – Economics of water resources planning, physical and socio economic data – National Water Policy – Collection of meteorological and hydrological data for water resources development.

2. NETWORK DESIGN 9

Hydrologic measurements – Analysis of hydrologic data – Hydrologic station network – Station network design – Statistical techniques in network design.

3. WATER RESOURCE NEEDS 9

Consumptive and non-consumptive water use - Estimation of water requirements for irrigation, for drinking and navigation - Water characteristics and quality – Scope and aims of master plan - Concept of basin as a unit for development - Water budget and development plan.

4. RESERVOIR PLANNING AND MANAGEMENT 9

Reservoir - Single and multipurpose – Multi objective - Fixation of Storage capacity -Strategies for reservoir operation - Sedimentation of reservoirs - Design flood-levees and flood walls - Channel improvement.

5. ECONOMIC ANALYSIS 9

Estimation of cost and Evaluation of Benefits - Discount rate - Discounting factors - Discounting techniques – Computer Applications.

TOTAL : 45TEXT BOOKS

1. Linsley R.K. and Franzini J.B, “Water Resources Engineering”, McGraw-Hill Inc, 2000. 2. Douglas J.L. and Lee R.R., “Economics of Water Resources Planning”, Tata McGraw-Hill Inc.

2000.3. Duggal, K.N. and Soni, J.P., “Elements of Water Resources Engineering”, New Age International

Publishers

REFERENCES

1. Chaturvedi M.C., “Water Resources Systems Planning and Management”, Tata McGraw-Hill Inc., New Delhi, 1997.

2. Goodman Alvin S., “Principles of Water Resources Planning”, Prentice-Hall, 1984.3. Maass et al. Design of Water Resources Systems, Macmillan, 1968.

Page 14: Civil Electives

CE1013 PAVEMENT ENGINEERING 3 0 0 100

OBJECTIVE

Student gains knowledge on various IRC guidelines for designing rigid and flexible pavements. Further, he/she will be in a position to assess quality and serviceability conditions of roads.

1. TYPE OF PAVEMENT AND STRESS DISTRIBUTION ON LAYERED SYSTEM 9

Introduction - Pavement as layered structure - Pavement types - rigid and flexible -Stress and deflections in pavements under repeated loading

2. DESIGN OF FLEXIBLE PAVEMENTS 9

Flexible pavement design - Empirical - Semi empirical and theoretical Methods - Design procedure as per latest IRC guidelines – Design and specification of rural roads

3. DESIGN OF RIGID PAVEMENTS 9

Cement concrete pavements - Modified Westergard approach - Design procedure as per latest IRC guidelines - Concrete roads and their scope in India.

4. PERFORMANCE EVALUATION AND MAINTENANCE 9

Pavement Evaluation [Condition and evaluation surveys (Surface Appearance, Cracks, Patches And Pot Holes, Undulations, Ravelling, Roughness, Skid Resistance), Structural Evaluation By Deflection Measurements, Present Serviceability Index] Pavement maintenance. [IRC Recommendations Only] 5. STABILISATION OF PAVEMENTS 8

Stabilisation with special reference to highway pavements - Choice of stabilisers -Testing and field control –Stabilisation for rural roads in India -use of Geosynthetics (geotextiles & geogrids) in roads.

TOTAL : 45  

TEXT BOOKS

1. Kadiyali, L.R., “Principles and Practice of Highway Engineering”, Khanna tech. Publications, New Delhi, 1989.

2. Croney, D., Design and Performance of Road Pavements, HMO Stationary Office, 1979.3. Wright, P.H., “Highway Engineers”, John Wiley & Sons, Inc., New York, 19964. Design and Specification of Rural Roads (Manual), Ministry of rural roads, Government of India,

New Delhi, 2001

REFERENCES

1. Yoder R.J and Witczak M.W., “Principles of Pavement Design”, John Wiley, 1975.2. Guidelines for the Design of Flexible Pavements, IRC:37 - 2001, The Indian roads Congress, New

Delhi.3. Guideline for the Design of Rigid Pavements for Highways, IRC:58-1998, The Indian Roads

Congress, New Delhi.

Page 15: Civil Electives

CE1014 GROUND IMPROVEMENT TECHNIQUES 3 0 0 100

OBJECTIVE

After this course, the student is expected to identify basic deficiencies of various soil deposits and he/she be in a position to decide various ways and means of improving the soil and implementing techniques of improvement.

1. INTRODUCTION 9

Role of ground improvement in foundation engineering - methods of ground improvement – Geotechnical problems in alluvial, laterite and black cotton soils -Selection of suitable ground improvement techniques based on soil condition.

2. DRAINAGE AND DEWATERING 9

Drainage techniques - Well points - Vaccum and electroosmotic methods - Seepage analysis for two dimensional flow-fully and partially penetrating slots in homogenous deposits (Simple cases only).

3. INSITU TREATMENT OF COHESIONLESS AND COHESIVE SOILS 9

Insitu densification of cohesionless and consolidation of cohesive soils -Dynamic compaction and consolidation - Vibrofloation - Sand pile compaction - Preloading with sand drains and fabric drains – Stone columns – Lime piles - Installation techniques only - relative merits of various methods and their limitations.

4. EARTH REINFORCEMENT 9

Concept of reinforcement - Types of reinforcement material - Applications of reinforced earth – use of Geotextiles for filtration, drainage and separation in road and other works.

5. GROUT TECHNIQUES 9

Types of grouts - Grouting equipment and machinery - Injection methods - Grout monitoring – Stabilisation with cement, lime and chemicals - Stabilisation of expansive soils.

TOTAL : 45  TEXT BOOKS

1. Koerner R.M., “Construction and Geotechnical Methods in Foundation Engineering”, McGraw-Hill, 1994.

2. Purushothama Raj, P. “Ground Improvement Techniques”, Tata McGraw-Hill Publishing Company, New Delhi, 1995

REFERENCES

1. Moseley M.P., Ground Improvement Blockie Academic and Professional, Chapman and Hall, Glassgow, 1993.

2. Jones J.E.P., Earth Reinforcement and Soil Structure, Butterworths, 1995.3. Koerner, R.M., “Design with Geosynthetics”, (3rd Edition) Prentice Hall, New Jersey, 20024. Jewell, R.A., “Soil Reinforcement with Geotextiles”, CIRIA special publication, London, 19965. Das, B.M., “Principles of Foundation Engineering”, Thomson Books / Cole, 2003.

Page 16: Civil Electives

CE1015 INTRODUCTION TO SOIL DYNAMICS AND MACHINE FOUNDATIONS3 0 0 100

OBJECTIVE

At the end of this program the, student is expected to assess the dynamic properties of soil and various design parameters required for the design of machine foundation as well as design of foundation for various reciprocating machines.

1. INTRODUCTION 9

Vibration of elementary systems-vibratory motion-single degree freedom system-free and forced vibration with and without damping

2. WAVES AND WAVE PROPAGATION 9

Wave propagation in an elastic homogeneous isotropic medium- Raleigh, shear and compression waves-waves in elastic half space

3. DYNAMIC PROPERTIES OF SOILS 9

Elastic properties of soils-coefficient of elastic, uniform and non-uniform compression - shear-effect of vibration dissipative properties of soils-determination of dynamic properties of soil- codal provisions

4. DESIGN PROCEDURES 9

Design criteria -dynamic loads - simple design procedures for foundations under reciprocating machines - machines producing impact loads - rotary type machines

5. VIBRATION ISOLATION 9

Vibration isolation technique-mechanical isolation-foundation isolation-isolation by location-isolation by barriers- active passive isolation tests.

TOTAL : 45TEXT BOOKS

1. Swamisaran, “Soil Dynamics and Machine Foundations”, Galgotia Publications Pvt. Ltd., 1999

2. S.Prakesh & V.K Puri, Foundation for machines, McGraw-Hill 19933. Srinivasulu, P & Vaidyanathan, Hand book of Machine Foundations, McGraw-Hill, 19964. Kramar S.L, “Geotechnical Earthquake Engineering”, Prentice Hall International series, Pearson

Education (Singapore) Pvt. Ltd.5. Kameswara Rao, “Dynamics Soil Tests and Applications”, Wheeler Publishing, New Delhi, 2003

REFERENCES

1. Kameswara Rao, “Vibration Analysis and Foundation Dynamics”, Wheeler Publishing, New Delhi, 1998

2. IS code of Practice for Design and Construction of Machine Foundations, McGraw-Hill, 1996.3. Moore P.J., “Analysis and Design of Foundation for Vibration”, Oxford and IBH, 1995.

Page 17: Civil Electives

CE1016 ROCK ENGINEERING 3 0 0 100

OBJECTIVE

Student gains the knowledge on the mechanics of rock and its applications in underground structures and rock slope stability analysis.

1. CLASSIFICATION AND INDEX PROPERTIES OF ROCKS 6

Geological classification – Index properties of rock systems – Classification of rock masses for engineering purpose.

2. ROCK STRENGTH AND FAILURE CRITERIA 12

Modes of rock failure – Strength of rock – Laboratory and field measurement of shear, tensile and compressive strength – Stress strain behaviour in compression – Mohr-coulomb failure criteria and empirical criteria for failure – Deformability of rock.

3. INITIAL STRESSES AND THEIR MEASUREMENTS 10

Estimation of initial stresses in rocks – influence of joints and their orientation in distribution of stresses – technique for measurements of insitu stresses.

4. APPLICATION OF ROCK MECHANICS IN ENGINEERING 10

Simple engineering application – Underground openings – Rock slopes – Foundations and mining subsidence.

5. ROCK BOLTING 7

Introduction – Rock bolt systems – rock bolt installation techniques – Testing of rock bolts – Choice of rock bolt based on rock mass condition.

TOTAL : 45TEXT BOOKS

1. Goodman P.E., “Introduction to Rock Mechanics”, John Wiley and Sons, 1999.2. Stillborg B., “Professional User Handbook for rock Bolting”, Tran Tech Publications, 1996.

REFERENCES

1. Brow E.T., “Rock Characterisation Testing and Monitoring”, Pergaman Press, 1991.2. Arogyaswamy R.N.P., “Geotechnical Application in Civil Engineering”, Oxford and IBH, 1991.3. Hock E. and Bray J., “Rock Slope Engineering, Institute of Mining and Metallurgy”, 1991.

Page 18: Civil Electives

CE1017 ENVIRONMENTAL IMPACT ASSESSMENT OF CIVIL ENGINEERING PROJECTS 3 0 0 100

OBJECTIVE

This subject deals with the various impacts of infrastructure projects on the components of environment and method of assessing the impact and mitigating the same.

The student is expected to know about the various impacts of development projects on environment and the mitigating measures.

1. INTRODUCTION 5

Impact of development projects under Civil Engineering on environment - Environmental Impact Assessment (EIA) - Environmental Impact Statement (EIS) – EIA capability and limitations – Legal provisions on EIA.

2. METHODOLOGIES 5

Methods of EIA –Check lists – Matrices – Networks – Cost-benefit analysis – Analysis of alternatives – Case studies.

3. PREDICTION AND ASSESSMENT 10

Assessment of Impact on land, water and air, noise, social, cultural flora and fauna; Mathematical models; public participation – Rapid EIA.

4. ENVIRONMENTAL MANAGEMENT PLAN 10

Plan for mitigation of adverse impact on environment – options for mitigation of impact on water, air and land, flora and fauna; Addressing the issues related to the Project Affected People – ISO 14000

5. CASE STUDIES 15

EIA for infrastructure projects – Bridges – Stadium – Highways – Dams – Multi-storey Buildings – Water Supply and Drainage Projects

TOTAL : 45TEXT BOOKS

1. Canter, R.L., “Environmental Impact Assessment”, McGraw-Hill Inc., New Delhi, 1996.2. Shukla, S.K. and Srivastava, P.R., “Concepts in Environmental Impact Analysis”, Common

Wealth Publishers, New Delhi, 1992.

REFERENCES

1. John G. Rau and David C Hooten (Ed)., “Environmental Impact Analysis Handbook”, McGraw-Hill Book Company, 1990.

2. “Environmental Assessment Source book”, Vol. I, II & III. The World Bank, Washington, D.C., 1991.

3. Judith Petts, “Handbook of Environmental Impact Assessment Vol. I & II”, Blackwell Science, 1999.

Page 19: Civil Electives

CE1018 INDUSTRIAL WASTE MANAGEMENT 3 0 0 100

This subject deals with the pollution from major industries and methods of controlling the same. The student is expected to know about the polluting potential of major industries in the country and the methods of controlling the same.1. INTRODUCTION 7

Types of industries and industrial pollution – Characteristics of industrial wastes – Population equivalent – Bioassay studies – effects of industrial effluents on streams, sewer, land, sewage treatment plants and human health – Environmental legislations related to prevention and control of industrial effluents and hazardous wastes

2. CLEANER PRODUCTION 8

Waste management Approach – Waste Audit – Volume and strength reduction – Material and process modifications – Recycle, reuse and byproduct recovery – Applications.

3. POLLUTION FROM MAJOR INDUSTRIES 10

Sources, Characteristics, waste treatment flow sheets for selected industries such as Textiles, Tanneries, Pharmaceuticals, Electroplating industries, Dairy, Sugar, Paper, distilleries, Steel plants, Refineries, fertilizer, thermal power plants – Wastewater reclamation concepts

4. TREATMENT TECHNOLOGIES 12

Equalisation – Neutralisation – Removal of suspended and dissolved organic solids - Chemical oxidation – Adsorption - Removal of dissolved inorganics – Combined treatment of industrial and municipal wastes – Residue management – Dewatering - Disposal

5. HAZARDOUS WASTE MANAGEMENT 8

Hazardous wastes - Physico chemical treatment – solidification – incineration – Secured land fills

TOTAL : 45TEXT BOOKS

1. M.N.Rao & A.K.Dutta, “Wastewater Treatment”, Oxford - IBH Publication, 1995.2. W .W. Eckenfelder Jr., “Industrial Water Pollution Control”, McGraw-Hill Book Company, New

Delhi, 2000.

REFERENCES

1. T.T.Shen, “Industrial Pollution Prevention”, Springer, 1999.2. R.L.Stephenson and J.B.Blackburn, Jr., “Industrial Wastewater Systems Hand book”, Lewis

Publisher, New Yark, 19983. H.M.Freeman, “Industrial Pollution Prevention Hand Book”, McGraw-Hill Inc., New Delhi, 1995.4. Bishop, P.L., “Pollution Prevention: Fundamental & Practice”, McGraw-Hill, 2000.

Page 20: Civil Electives

CE1019 AIR POLLUTION MANAGEMENT 3 0 0 100

OBJECTIVE

This subject covers the sources, characteristics and effects of air and noise pollution and the methods of controlling the same. The student is expected to know about source inventory and control mechanism.

1. SOURCES AND EFFECTS OF AIR POLLUTANTS 9

Classification of air pollutants – Particulates and gaseous pollutants – Sources of air pollution – Source inventory – Effects of air pollution on human beings, materials, vegetation, animals – global warming-ozone layer depletion, Sampling and Analysis – Basic Principles of Sampling – Source and ambient sampling – Analysis of pollutants – Principles.

2. DISPERSION OF POLLUTANTS 9

Elements of atmosphere – Meteorological factors – Wind roses – Lapse rate - Atmospheric stability and turbulence – Plume rise – Dispersion of pollutants – Dispersion models – Applications.

3. AIR POLLUTION CONTROL 15

Concepts of control – Principles and design of control measures – Particulates control by gravitational, centrifugal, filtration, scrubbing, electrostatic precipitation – Selection criteria for equipment - gaseous pollutant control by adsorption, absorption, condensation, combustion – Pollution control for specific major industries.

4. AIR QUALITY MANAGEMENT 7

Air quality standards – Air quality monitoring – Preventive measures - Air pollution control efforts – Zoning – Town planning regulation of new industries – Legislation and enforcement – Environmental Impact Assessment and Air quality

5. NOISE POLLUTION 5

Sources of noise pollution – Effects – Assessment - Standards – Control methods - Prevention TOTAL : 45

TEXT BOOKS

1. Anjaneyulu, D., “Air Pollution and Control Technologies”, Allied Publishers, Mumbai, 2002.2. Rao, C.S. Environmental Pollution Control Engineering, Wiley Eastern Ltd., New Delhi, 1996.3. Rao M.N., and Rao H. V. N., Air Pollution Control, Tata-McGraw-Hill, New Delhi, 1996.

REFERENCES

1. W.L.Heumann, Industrial Air Pollution Control Systems, McGraw-Hill, New Yark, 19972. Mahajan S.P., Pollution Control in Process Industries, Tata McGraw-Hill Publishing Company,

New Delhi, 1991.3. Peavy S.W., Rowe D.R. and Tchobanoglous G. Environmental Engineering, McGraw Hill, New

Delhi, 1985. 4. Garg, S.K., “Environmental Engineering Vol. II”, Khanna Publishers, New Delhi5. Mahajan, S.P., “Pollution Control in Process Industries”, Tata McGraw-Hill, New Delhi, 1991

Page 21: Civil Electives

CE1020 MUNICIPAL SOLID WASTE MANAGEMENT 3 0 0 100

OBJECTIVE

This subject covers the various sources and characterisation of municipal solid wastes and the on-site/off-site processing of the same and the disposal methods. The student is expected to know about the various effects and disposal options for the municipal solid waste.

1. SOURCES AND TYPES OF MUNICIPAL SOLID WASTES 9

Sources and types of solid wastes - Quantity – factors affecting generation of solid wastes; characteristics – methods of sampling and characterization; Effects of improper disposal of solid wastes – public health effects. Principle of solid waste management – social & economic aspects; Public awareness; Role of NGOs; Legislation.

2. ON-SITE STORAGE & PROCESSING 9

On-site storage methods – materials used for containers – on-site segregation of solid wastes – public health & economic aspects of storage – options under Indian conditions – Critical Evaluation of Options.

3. COLLECTION AND TRANSFER 9

Methods of Collection – types of vehicles – Manpower requirement – collection routes; transfer stations – selection of location, operation & maintenance; options under Indian conditions.

4. OFF-SITE PROCESSING 9

Processing techniques and Equipment; Resource recovery from solid wastes – composting, incineration, Pyrolysis - options under Indian conditions.

5. DISPOSAL 9

Dumping of solid waste; sanitary land fills – site selection, design and operation of sanitary landfills – Leachate collection & treatment

TOTAL : 45TEXT BOOKS

1. George Tchobanoglous et.al., “Integrated Solid Waste Management”, McGraw-Hill Publishers, 1993.

2. B.Bilitewski, G.HardHe, K.Marek, A.Weissbach, and H.Boeddicker, “Waste Management”, Springer, 1994.

REFERENCES

1. Manual on Municipal Solid Waste Management, CPHEEO, Ministry of Urban Development, Government of India, New Delhi, 2000

2. R.E.Landreth and P.A.Rebers, “Municipal Solid Wastes – problems and Solutions”, Lewis Publishers, 1997.

3. Bhide A.D. and Sundaresan, B.B., “Solid Waste Management in Developing Countries”, INSDOC, 1993.

Page 22: Civil Electives

CE1021 ECOLOGICAL ENGINEERING 3 0 0 100

OBJECTIVE

This subject deals with the scope and applications of ecological principles for wastewater treatment and reuse. The student is expected to be aware of the various effects of industrialisation on ecology and ecological based waste purification methods.

1. PRINCIPLES AND CONCEPTS 9

Scope and applications of Ecological Engineering – Development and evolution of ecosystems – principles and concepts pertaining to species, populations and community

2. ECOSYSTEM FUNCTIONS 10

Energy flow and nutrient cycling – Food chain and food webs – biological magnification, diversity and stability, immature and mature systems. Primary productivity – Biochemical cycling of nitrogen, phosphorous, sulphur and carbon dioxide; Habitat ecology - Terrestrial, fresh water, estuarine and marine habitats.

3. ECOLOGICAL ENGINEERING METHODS 10

Bio monitoring and its role in evaluation of aquatic ecosystem; Rehabilitation of ecosystems through ecological principles – step cropping, bio-wind screens, Wetlands, ponds, Root Zone Treatment for wastewater, Reuse of treated wastewater through ecological systems.

4. ECOLOGICAL EFFECTS OF INDUSTRIALISATION 8

Ecological effects of exploration, production, extraction, processing, manufacture & transport.

5. CASE STUDIES 8

Case studies of Integrated ecological engineering systems.TOTAL : 45

TEXT BOOKS

1. Odum, E.P., “Fundamental of Ecology”, W.B.Sauders, 1990.2. Kormondy, E.J., “Concepts of Ecology”, Prentice Hall, New Delhi, 1996

REFERENCES

1. Mitch, J.W. and Jorgensen, S.E., Ecological Engineering – An Introduction to Ecotechnology, John Wiley and Sons, 1996.

2. Colinvaux, P., Ecology, John Wiley and Sons, 1996.3. Etnier, C & Guterstam, B., “Ecological Engineering for Wastewater Treatment”, 2nd Edition,

Lewis Publications, London, 1996

Page 23: Civil Electives

CE1022 BRIDGE STRUCTURES 3 0 0 100

OBJECTIVE

At the end of this course the student shall be able to choose appropriate bridge structure and design it for given site conditions.

1. INTRODUCTION 9

Design of through type steel highway bridges for IRC loading - Design of stringers, cross girders and main girders - Design of deck type steel highway bridges for IRC loading - Design of main girders

2. STEEL BRIDGES 9

Design of pratt type truss girder highway bridges - Design of top chord, bottom chord, web members - Effect of repeated loading - Design of plate girder railway bridges for railway loading - Wind effects - Design of web and flange plates - Vertical and horizontal stiffeners.

3. REINFORCED CONCRETE SLAB BRIDGES 9

Design of solid slab bridges for IRC loading - Design of kerb - Design of tee beam bridges - Design of panel and cantilever for IRC loading

4. REINFORCED CONCRETE GIRDER BRIDGES 9

Design of tee beam - Courbon's theory - Pigeaud's curves - Design of balanced cantilever bridges - Deck slab - Main girder - Design of cantilever - Design of articulation.

5. PRESTRESSED CONCRETE BRIDGES 9

Design of prestressed concrete bridges - Preliminary dimensions - Flexural and torsional parameters - Courbon's theory - Distribution coefficient by exact analysis - Design of girder section - Maximum and minimum prestressing forces - Eccentricity - Live load and dead load shear forces - cable zone in girder –Check for stresses at various sections - Check for diagonal tension - Diaphragms - End block - Short term and long term deflections.

TOTAL : 45  TEXT BOOKS

1. Johnson Victor D., “Essentials of Bridge Engineering”, Oxford and IBH Publishing Co., New Delhi, 1990.

2. Ponnuswamy S., “Bridge Engineering”, Tata McGraw-Hill, New Delhi, 1996.

REFERENCES

1. Phatak D.R., “Bridge Engineering”, Satya Prakashan, New Delhi, 1990.

Page 24: Civil Electives

CE1023 STORAGE STRUCTURES 3 0 0 100

OBJECTIVE

The main objective of this course is to impart the principles involved in designing structures which have to store different types of materials. The student at the end of the course shall be able to design concrete and steel material retaining structures.

1. STEEL WATER TANKS 15

Design of rectangular riveted steel water tank – Tee covers – Plates – Stays –Longitudinal and transverse beams – Design of staging – Base plates – Foundation and anchor bolts – Design of pressed steel water tank – Design of stays – Joints – Design of hemispherical bottom water tank – side plates – Bottom plates – joints – Ring girder – Design of staging and foundation.

2. CONCRETE WATER TANKS 15

Design of Circular tanks – Hinged and fixed at the base – IS method of calculating shear forces and moments – Hoop tension – Design of intze tank – Dome – Ring girders – Conical dome – Staging – Bracings – Raft foundation – Design of rectangular tanks – Approximate methods and IS methods – Design of under ground tanks – Design of base slab and side wall – Check for uplift.

3. STEEL BUNKERS AND SILOS 5

Design of square bunker – Jansen’s and Airy’s theories – IS Codal provisions – Design of side plates – Stiffeners – Hooper – Longitudinal beams – Design of cylindrical silo – Side plates – Ring girder – stiffeners.

4. CONCRETE BUNKERS AND SILOS 5

Design of square bunker – Side Walls – Hopper bottom – Top and bottom edge beams – Design of cylindrical silo – Wall portion – Design of conical hopper – Ring beam at junction.

5. PRESTRESSED CONCRETE WATER TANKS 5

Principles of circular prestressing – Design of prestressed concrete circular water tanks.

TOTAL : 45TEXT BOOKS

1. Rajagopalan K., Storage Structures, Tata McGraw-Hill, New Delhi, 1998.2. Krishna Raju N., Advanced Reinforced Concrete Design, CBS Publishers and Distributors, New

Delhi, 1998.

Page 25: Civil Electives

CE1024 DESIGN OF PLATE AND SHELL STRUCTURES 3 0 0 100

OBJECTIVE

At the end of this course the student shall understand the rudimentary principles involved in the analysis and design of plates and shells.

1. THIN PLATES WITH SMALL DEFLECTION 9

Laterally loaded thin plates – governing differential equations – Simply supported and fixed boundary conditions

2. RECTANGULAR PLATES 9

Simply supported rectangular plates – Navier’s solution and Levy’s method.

3. THIN SHELLS 9

Classification of shells-structural actions – membrane theory

4. ANALYSIS OF SHELLS 9

Analysis of spherical dome – cylindrical shells – folded plates

5. DESIGN OF SHELLS 9

Design of spherical dome – cylindrical shells – folded plates

TOTAL : 45TEXT BOOKS

1. Bairagi N K, A text book of Plate Analysis, Khanna Publishers, New Delhi, 1996.2. G.S. Ramaswamy, Design and Construction of Shell Structures, CBS Plublishers, New Delhi,

19963. S. Timoshenko & S. Woinowsky – Krieger, “Theory of Plates and Shells”, McGraw Hill Book

Company

REFERENCES

1. Szilard R, Theory and analysis of plates, Prentice Hall Inc, 19952. Chatterjee B. K., Theory and Design of Concrete Shells, Oxford & IBH, New Delhi, 19983. Billington D. P., Thin Shell Concrete Structures, McGraw-Hill, 1995

Page 26: Civil Electives

CE1025 TALL BUILDINGS 3 0 0 100

OBJECTIVE

At the end of this course the student should have understood the problems associated with large heights of structures with respect to loads (wind and earthquake and deflections of the structure). He should know the rudimentary principles of designing tall buildings as per the existing course.

1. INTRODUCTION 9

The Tall Building in the Urban Context - The Tall Building and its Support Structure - Development of High Rise Building Structures - General Planning Considerations.Dead Loads - Live Loads-Construction Loads -Snow, Rain, and Ice Loads - Wind Loads-Seismic Loading –Water and Earth Pressure Loads - Loads - Loads Due to Restrained Volume Changes of Material - Impact and Dynamic Loads - Blast Loads -Combination of Loads.

2. THE VERTICAL STRUCTURE PLANE 9

Dispersion of Vertical Forces- Dispersion of Lateral Forces - Optimum Ground Level Space - Shear Wall Arrangement - Behaviour of Shear Walls under Lateral Loading. The Floor Structure or Horizontal Building Plane Floor Framing Systems-Horizontal Bracing- Composite Floor Systems The High - Rise Building as related to assemblage Kits Skeleton Frame Systems - Load Bearing Wall Panel Systems - Panel – Frame Systems - Multistory Box Systems.

3. COMMON HIGH-RISE BUILDING STRUCTURES AND THEIR BEHAVIOUR UNDER LOAD 9

The Bearing Wall Structure- The Shear Core Structure - Rigid Frame Systems- The Wall - Beam Structure: Interspatial and Staggered Truss Systems - Frame - Shear Wall Building Systems - Flat Slab Building Structures - Shear Truss - Frame Interaction System with Rigid - Belt Trusses - Tubular Systems-Composite Buildings - Comparison of High - Rise Structural Systems Other Design Approaches Controlling Building Drift Efficient Building Forms - The Counteracting Force or Dynamic Response.

4. APPROXIMATE STRUCTURAL ANALYSIS AND DESIGN OF BUILDINGS 9

Approximate Analysis of Bearing Wall Buildings The Cross Wall Structure - The Long Wall Structure The Rigid Frame Structure Approximate Analysis for Vertical Loading - Approximate Analysis for Lateral Loading - Approximate Design of Rigid Frame Buildings-Lateral Deformation of Rigid Frame Buildings The Rigid Frame - Shear Wall Structure - The Vierendeel Structure - The Hollow Tube Structure.

5. OTHER HIGH-RISE BUILDING STRUCTURE 9

Deep - Beam Systems -High-Rise Suspension Systems - Pneumatic High -Rise Buildings - Space Frame Applied to High - Rise Buildings - Capsule Architecture.

TOTAL : 45  TEXT BOOKS

1. WOLFGANG SCHUELLER " High - rise building Structures", John Wiley and Sons.2. Bryan Stafford Smith and Alex Coull, " Tall Building Structures ", Analysis and Design, John

Wiley and Sons, Inc., 1991.

REFERENCES

1. COULL, A. and SMITH, STAFFORD, B. " Tall Buildings ", Pergamon Press, London, 1997.2. LinT.Y. and Burry D.Stotes, " Structural Concepts and Systems for Architects and Engineers ",

John Wiley, 1994.3. Lynn S.Beedle, Advances in Tall Buildings, CBS Publishers and Distributors, Delhi, 1996.

Page 27: Civil Electives

CE1026 STRUCTURAL DYNAMICS 3 0 0 100

OBJECTIVE

At the end of this course the student is expected to know how to arrive at the dynamic forces and structures, how to idealise the structure into systems of reduced number of degrees of freedom and analyse these systems for the forces. He should also be able to interpret the results.

1. Difference between static loading and dynamic loading – Nature of dynamic loads – Wind, Earthquake and Impact Loads – Damping – Viscous and structural damping – single degree of freedom (SDOF) Systems – Formulation of equation of motion – Newton’s Law and D’Alembert’s principles – Examples of SDOF modeling. 9

2. Free vibration response of SDOF system – Response of undamped and damped SDOF system to harmonic excitation – characteristic of resonance – Response to impulse and an arbitrary forcing function – Duhamel Integral formulation. 9

3. MDOF systems – examples – Lumped parameter model – Formulation of equation of motion – Free vibration of MDOF systems as Eigen value problem – concept of mode shapes and natural frequencies – 2 DOF example – orthogonal properties of normal modes. 9

4. Harmonic excitation of 2 DOF system – Principle of mode superposition (principle only) for dynamic analysis – vibration isolation – vibration measuring instruments. 9

5. Effect of wind and earthquake on structures – Principles of aseismic design – Methods of vibration control – codal provisions for design for wind and earthquake (explanation of provisions only – no design) 9

TOTAL : 45TEXT BOOKS

1. Mario Paz, Structural Dynamics Theory and Computation, Van Nostrand Reinhold, 19922. Anil K.Chopra, “Dynamics of Structures Theory and Applications to Earthquake Engineering”

Pearson Education., 2003.

REFERENCES

1. Thomson W.T., Theory of Vibration and Applications, Prentice Hall of India, 19922. Clough R.W. and Penzien, J., Dynamics of Structures, McGraw-Hill, 19903. Craig R.R. Jr., Structural Dynamics – An Introduction to Computer Methods, John Wiley and

Sons, 1981

Page 28: Civil Electives

CE1027 PREFABRICATED STRUCTURES 3 0 0 100

OBJECTIVE

At the end of this course the student shall be able to appreciate modular construction, industrialised construction and shall be able to design some of the prefabricated elements and also have the knowledge of the construction methods using these elements.

1. INTRODUCTION 9

Need for prefabrication – Principles – Materials – Modular coordination – Standarization – Systems – Production – Transportation – Erection.

2. PREFABRICATED COMPONENTS 9

Behaviour of structural components – Large panel constructions – Construction of roof and floor slabs – Wall panels – Columns – Shear walls

3. DESIGN PRINCIPLES 9

Disuniting of structures- Design of cross section based on efficiency of material used – Problems in design because of joint flexibility – Allowance for joint deformation.

4. JOINT IN STRUCTURAL MEMBERS 9

Joints for different structural connections – Dimensions and detailing – Design of expansion joints

5. DESIGN FOR ABNORMAL LOADS 9

Progressive collapse – Code provisions – Equivalent design loads for considering abnormal effects such as earthquakes, cyclones, etc., - Importance of avoidance of progressive collapse.

TOTAL : 45TEXT BOOKS

1. CBRI, Building materials and components, India, 19902. Gerostiza C.Z., Hendrikson C. and Rehat D.R., Knowledge based process planning for

construction and manufacturing, Academic Press Inc., 1994

REFERENCES

1. Koncz T., Manual of precast concrete construction, Vols. I, II and III, Bauverlag, GMBH, 1971.2. Structural design manual, Precast concrete connection details, Society for the studies in the use of

precast concrete, Netherland Betor Verlag, 1978.

Page 29: Civil Electives

CE1028 WIND ENGINEERING 3 0 0 100

OBJECTIVE

At the end of this course the student should be able to appreciate the forces generated on structures due to normal wind as well as gusts. He should also be able to analyse the dynamic effects created by these wind forces.

1. INTRODUCTION 9

Terminology – Wind Data – Gust factor and its determination - Wind speed variation with height – Shape factor – Aspect ratio – Drag and lift.

2. EFFECT OF WIND ON STRUCTURES 9

Static effect – Dynamic effect – Interference effects (concept only) – Rigid structure – Aeroelastic structure (concept only).

3. EFFECT ON TYPICAL STRUCTURES 9

Tail buildings – Low rise buildings – Roof and cladding – Chimneys, towers and bridges.

4. APPLICATION TO DESIGN 9

Design forces on multistorey building, towers and roof trusses.

5. INTRODUCTION TO WIND TUNNEL 9

Types of models (Principles only) – Basic considerations – Examples of tests and their use.

TOTAL : 45TEXT BOOKS

1. Peter Sachs, “Wind Forces in Engineering, Pergamon Press, New York, 1992.2. Lawson T.V., Wind Effects on Buildings, Vols. I and II, Applied Science and Publishers, London,

1993.

REFERENCES

1. Devenport A.G., “Wind Loads on Structures”, Division of Building Research, Ottowa, 1990.2. Wind Force on Structures – Course Notes, Building Technology Centre, Anna University, 1995.

Page 30: Civil Electives

CE1029 COMPUTER AIDED DESIGN OF STRUCTURE 3 0 0 100

OBJECTIVE

The main objective of this programme is to train the student in the use of computers and creating a computer code as well as using commercially available software for the design of Civil Engineering structures.

1. INTRODUCTION 9

Fundamentals of CAD - Hardware and software requirements -Design process - Applications and benefits.

2. COMPUTER GRAPHICS 9

Graphic primitives - Transformations -Wire frame modeling and solid modeling -Graphic standards –Drafting packages

3. STRUCTURAL ANALYSIS 9

Fundamentals of finite element analysis - Principles of structural analysis -Analysis packages and applications.

4. DESIGN AND OPTIMISATION 9

Principles of design of steel and RC Structures -Applications to simple design problems – Optimisation techniques - Algorithms - Linear Programming – Simplex method

5. EXPERT SYSTEMS 9

Introduction to artificial intelligence - Knowledge based expert systems -Rules and decision tables –Inference mechanisms - Simple applications.

TOTAL : 45TEXT BOOKS

1. Groover M.P. and Zimmers E.W. Jr., “CAD/CAM, Computer Aided Design and Manufacturing”, Prentice Hall of India Ltd, New Delhi, 1993.

2. Krishnamoorthy C.S.Rajeev S., “Computer Aided Design”, Narosa Publishing House, New Delhi, 1993

REFERENCES

1. Harrison H.B., “Structural Analysis and Design”, Part I and II Pergamon Press, Oxford, 1990.2. Rao S.S., “Optimisation Theory and Applications”, Wiley Eastern Limited, New Delhi, 1977.3. Richard Forsyth (Ed), “Expert System Principles and Case Studies”, Chapman and Hall, London,

1989.

Page 31: Civil Electives

CE1030 PRE-STRESSED CONCRETE STRUCTURES 3 0 0 100

OBJECTIVE

At the end of this course the student shall have a knowledge of methods of prestressing, advantages of prestressing concrete, the losses involved and the design methods for prestressed concrete elements under codal provisions.

1. INTRODUCTION – THEORY AND BEHAVIOUR 9

Basic concepts – Advantages – Materials required – Systems and methods of prestressing – Analysis of sections – Stress concept – Strength concept – Load balancing concept – Effect of loading on the tensile stresses in tendons – Effect of tendon profile on deflections – Factors influencing deflections – Calculation of deflections – Short term and long term deflections - Losses of prestress – Estimation of crack width

2. DESIGN 9

Flexural strength – Simplified procedures as per codes – strain compatibility method – Basic concepts in selection of cross section for bending – stress distribution in end block, Design of anchorage zone reinforcement – Limit state design criteria – Partial prestressing – Applications.

3. CIRCULAR PRESTRESSING 9

Design of prestressed concrete tanks – Poles and sleepers

4. COMPOSITE CONSTRUCTION 9

Analysis for stresses – Estimate for deflections – Flexural and shear strength of composite members

5. PRE-STRESSED CONCRETE BRIDGES 9

General aspects – pretensioned prestressed bridge decks – Post tensioned prestressed bridge decks – Principles of design only.

TOTAL : 45TEXT BOOKS

1. Krishna Raju N., Prestressed concrete, Tata McGraw Hill Company, New Delhi 19982. Mallic S.K. and Gupta A.P., Prestressed concrete, Oxford and IBH publishing Co. Pvt. Ltd. 1997.

REFERENCES

1. Ramaswamy G.S., Modern prestressed concrete design, Arnold Heinimen, New Delhi, 19902. Lin T.Y. Design of prestressed concrete structures, Asia Publishing House, Bombay 1995.3. David A.Sheppard, William R. and Philips, Plant Cast precast and prestressed concrete – A design

guide, McGraw Hill, New Delhi 1992.

Page 32: Civil Electives

CE1031 INDUSTRIAL STRUCTURES 3 0 0 100

OBJECTIVE

This course deals with some of the special aspects with respect to Civil Engineering structures in industries. At the end of this course the student shall be able to design some of the structures.

1. PLANNING 9

Classification of Industries and Industrial structures – General requirements for industries like cement, chemical and steel plants – Planning and layout of buildings and components.

2. FUNCTIONAL REQUIREMENTS 9

Lighting – Ventilation – Accounts – Fire safety – Guidelines from factories act.

3. DESIGN OF STEEL STRUCTURES 9

Industrial roofs – Crane girders – Mill buildings – Design of Bunkers and Silos

4. DESIGN OF R.C. STRUCTURES 9

Silos and bunkers – Chimneys – Principles of folded plates and shell roofs

5. PREFABRICATION 9

Principles of prefabrication – Prestressed precast roof trusses- Functional requirements for Precast concrete units

TOTAL : 45TEXT BOOKS

1. Reinforced Concrete Structural elements – P. Purushothaman2. Pasala Dayaratnam – Design of Steel Structure - 1990

REFERENCES

1. Henn W. Buildings for Industry, vols.I and II, London Hill Books, 19952. Handbook on Functional Requirements of Industrial buildings, SP32 – 1986, Bureau of Indian

Standards, New Delhi 19903. Course Notes on Modern Developments in the Design and Construction of Industrial Structures,

Structural Engineering Research Centre, Madras, 1982

Page 33: Civil Electives

CE1032 SMART STRUCTURES AND SMART MATERIALS 3 0 0 100

OBJECTIVE

This course is designed to give an insight into the latest developments regarding smart materials and their use in structures. Further, this also deals with structures which can self adjust their stiffness with load.

1. INTRODUCTION 9

Introduction to Smart Materials and Structures – Instrumented structures functions and response – Sensing systems – Self diagnosis – Signal processing consideration – Actuation systems and effectors.

2. MEASURING TECHNIQUES 9

Strain Measuring Techniques using Electrical strain gauges, Types – Resistance – Capacitance – Inductance – Wheatstone bridges – Pressure transducers – Load cells – Temperature Compensation – Strain Rosettes.

3. SENSORS 9

Sensing Technology – Types of Sensors – Physical Measurement using Piezo Electric Strain measurement – Inductively Read Transducers – The LVOT – Fiber optic Techniques.Chemical and Bio-Chemical sensing in structural Assessment – Absorptive chemical sensors – Spectroscopes – Fibre Optic Chemical Sensing Systems and Distributed measurement.

4. ACTUATORS 9

Actuator Techniques – Actuator and actuator materials – Piezoelectric and Electrostrictive Material – Magnetostructure Material – Shape Memory Alloys – Electro orheological Fluids– Electro magnetic actuation – Role of actuators and Actuator Materials. 5. SIGNAL PROCESSING AND CONTROL SYSTEMS 9

Data Acquisition and Processing – Signal Processing and Control for Smart Structures – Sensors as Geometrical Processors – Signal Processing – Control System – Linear and Non-Linear.

TOTAL : 45   TEXT BOOKS

1. Brain Culshaw – Smart Structure and Materials Artech House – Borton. London-1996.

REFERENCES

1. L. S. Srinath – Experimental Stress Analysis – Tata McGraw-Hill, 1998.2. J. W. Dally & W. F. Riley – Experimental Stress Analysis – Tata McGraw-Hill, 1998.

Page 34: Civil Electives

CE1033 FINITE ELEMENT TECHNIQUES 3 1 0 100

OBJECTIVE

At the end of this course the student shall have a basic knowledge of finite element method and shall be able to analyse linear elastic structures, that he has studied about in core courses, using finite element method.1. INTRODUCTION – VARIATIONAL FORMULATION 8

General field problems in Engineering – Modelling – Discrete and Continuous models – Characteristics – Difficulties involved in solution – The relevance and place of the finite element method – Historical comments – Basic concept of FEM, Boundary and initial value problems – Gradient and divergence theorems – Functionals – Variational calculus – Variational formulation of VBPS. The method of weighted residuals – The Ritz method.

2. FINITE ELEMENT ANALYSIS OF ONE DIMENSIONAL PROBLEMS 8

One dimensional second order equations – discretisation of domain into elements – Generalised coordinates approach – derivation of elements equations – assembly of elements equations – imposition of boundary conditions – solution of equations – Cholesky method – Post processing – Extension of the method to fourth order equations and their solutions – time dependant problems and their solutions – example from heat transfer, fluid flow and solid mechanics.3. FINITE ELEMENT ANALYSIS OF TWO DIMENSIONAL PROBLEMS 8

Second order equation involving a scalar-valued function – model equation – Variational formulation – Finite element formulation through generalised coordinates approach – Triangular elements and quadrilateral elements – convergence criteria for chosen models – Interpolation functions – Elements matrices and vectors – Assembly of element matrices – boundary conditions – solution techniques.

4. ISOPARAMETRIC ELEMENTS AND FORMULATION 7

Natural coordinates in 1, 2 and 3 dimensions – use of area coordinates for triangular elements in - 2 dimensional problems – Isoparametric elements in 1,2 and 3 dimensional – Largrangean and serendipity elements – Formulations of elements equations in one and two dimensions - Numerical integration.

5. APPLICATIONS TO FIELD PROBLEMS IN TWO DIMENSIONALS 7

Equations of elasticity – plane elasticity problems – axisymmetric problems in elasticity – Bending of elastic plates – Time dependent problems in elasticity – Heat – transfer in two dimensions – incompressible fluid flow.

6. INTRODUCTION TO ADVANCED TOPICS (NOT FOR EXAMINATION PURPOSE)

7

Three dimensional problems – Mixed formulation – use of software packages like NISA, ANSYS OR NASTRAN.

TOTAL : 45TEXT BOOK

1. Chandrupatla, T.R., and Belegundu, A.D., “Introduction to Finite Element in Engineering”, Third Edition, Prentice Hall, India, 2003

REFERENCES

1. J.N.Reddy, “An Introduction to Finite Element Method”, McGraw-Hill, Intl. Student Edition, 1985.

2. Zienkiewics, “The finite element method, Basic formulation and linear problems”, Vol.1, 4/e, McGraw-Hill, Book Co.

3. S.S.Rao, “The Finite Element Method in Engineering”, Pergaman Press, 2003.

Page 35: Civil Electives

4. C.S.Desai and J.F.Abel, “Introduction to the Finite Element Method”, Affiliated East West Press, 1972.

INFORMATION TECHNOLOGY 3 0 0 100 OBJECTIVE

At the end of the course the student will posses knowledge about Information Technology.

1. INTRODUCTION 5

Data – Information – Knowledge – Concepts of Database Design and Architecture – Commercial and Engineering Databases.

2. COMPUTER HARDWARE AND SOFTWARE 13

Mother Board – Memory Devices – Bus – Ports and peripherals – I/O Devices – PC and Work stations – Foundations of operating System and its level of abstraction – Compilers – Interrupt Services – Application Software – Elements of visual Programming – Concepts, Components and formats of Multimedia – Principles of Virtual Reality.

3. SOFTWARE ENGINEERING AND QUALITY CONTROL 9

Introduction – Principles and Requirements – Planning – Cost Estimation – Design Concepts – Modularisation – Notation – Implementation – Verification – Maintenance – Software quality management, ISO and CMM

4. NETWORKS AND COMMUNICATION 9

Introduction to Computer Networks – Layered Architecture – Data Communication Concepts – Transmission Media and Topologies – Internet working Issues – Internet – TCP/IP Protocols and www

5. APPLICATION OF INFORMATION TECHNOLOGY IN CIVIL ENGINEERING 9

IT applications in Design, Construction management, Environmental monitoring, Water resources management and Urban planning and Design.

L : 45, TOTAL : 45REFERENCES

1. Wing Toy and Benjamin Zee, Computer hardware / software architecture, Prentice – Hall of India, 1992.

2. Carlo Ghezzi, Mehdi Jazayeri, Dino Mandrioli, Fundamentals of software engineering, 2nd edition, Prentice – Hall of India, 2002.

3. Andrew S. Tanenbaum, Computer Networks, 4th edition, Prentice – Hall of India, 2003.